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Title: Earth boring auger
Description: Description:
BACKGROUND OF THE INVENTION Earth boring augers generally include a shaft with a bit on one end and helical flighting surrounding the shaft. The bit is adapted to engage the formation and drill a hole the size of the shaft. The flighting engages the formation at an acute angle and scrapes the material therefrom and feeds it away from the formation face being engaged. With such structure, these earth boring augers have generally been limited to boring relatively soft formations. Further, the available torque for such earth boring augers is the limiting factor in its rate of penetration. SUMMARY The present invention relates to an improved earth boring auger especially adapted for cutting both soft and hard formations, having one or more disc cutters supported on the auger and in position to engage the formation before engagement by the auger flighting. An object of the present invention is to provide an improved earth boring auger having higher penetration to torque ratios. Another object of the present invention is to provide an improved earth boring auger capable of boring in harder formations than previous augers. A further object is to provide an improved earth boring auger capable of cutting kerfs in the formation before engagement by the auger flighting. BRIEF DESCRIPTION OF THE DRAWINGS These and other objects and advantages of the present invention are hereinafter set forth and explained with reference to the drawings wherein: FIG. 1 is a side view of one form of auger embodying the present invention. FIG. 2 is a bottom view of the auger shown in FIG. 1. FIG. 3 is a sectional view taken along line 3--3 in FIG. 2. FIG. 4 is a sectional view taken along line 4--4 in FIG. 2. FIG. 5 is a typical sectional view of the cutter supports and bearings. FIG. 6 is a side view of another form of the auger embodying the present invention. FIG. 7 is a bottom view of the auger shown in FIG. 6. DESCRIPTION OF THE PREFERRED EMBODIMENTS The auger 10 shown in FIGS. 1 and 2 includes a shaft 12 having means 14 for connecting to a drill string or power source (not shown) at one end and a spade bit 16 at the other end together with primary and secondary helical flightings 18 and 20 secured to and surrounding the shaft with the secondary flighting 20 at the spade bit end of the shaft spaced opposite the primary flighting 18 and extending upwardly thereon only a short distance as shown. The leading edge 22 of the primary flighting 18 is 180.degree. opposite from the leading edge 24 of secondary flighting 20. As can best be seen in FIG. 2, a plurality of cutter assemblies 26 are shown positioned below flightings 18 and 20. Plates 28 and 30 are suitably secured as by welding below the flightings 18 and 20 and are supported by brackets 32, 34 and 36. As can be seen from FIG. 1, the cutter assemblies 26 are so mounted that they engage the formation to be bored before the leading edges 22 and 24 of flightings 18 and 20. Each of the cutter assemblies 26 includes a shaft 38, a disc cutter 40, means 42 for rotatively mounting the disc cutter 40, and means 44 for supporting the cutter assembly 26 below the flightings 18 and 20. The cutter assembly 26a is designed to either cut a gage kerf or the innermost kerf. As shown in FIG. 2, there are three of the cutter assemblies 26a and three of the cutter assemblies 26b. The details of structure of the cutter assembly 26a are shown in FIG. 3 and include shaft 38a, disc cutter 40a and the bearing means such as bushings 42a. The saddles 46a are keyed into position on plates 28 and 30 by the pins 48a as shown. The saddles 46a are welded in position and the caps 50a are secured to the saddles 46a by cap screws 52a with the shaft 38a and bushings 42a positioned therein to support disc cutter 40a which is integral on the end of a shaft 38a as shown in FIG. 5. The support means 44 includes the saddles 46a and the caps 50a. The cutter assembly 26b as shown in FIG. 4 includes shaft 38b, disc cutter 40b and the bearing means such as bushings 42b. The saddles 46b are keyed into position on plates 28 and 30 by the pins 48b as shown. The saddles 46b are welded in position and the caps 50b are secured to the saddles 46b by cap screws (not shown) with the shaft 38b and bearings 42b positioned therein to support disc cutter 40b between the saddles 46b. While the disc cutters 40a and 40b are both shown to be integral with the shafts 38a and 38b, the cutters may be separately mounted on the shafts with suitable bearings. As can be seen from FIG. 2, each of said disc cutters 40 has a different radial position with respect to the shaft 38 so that their respective kerfs will each have a different radius. This allows a substantial portion of the face of the formation to be cut in kerfs before it is engaged by the flightings to thereby greatly reduce the torque necessary to rotate the auger. The earth boring auger 110 shown in FIGS. 6 and 7 is similar to auger 10 in that it includes a shaft 112 having means 114 for connecting to a drill string or power source at one end and a spade bit 116 at the other end together with primary and secondary helical flightings 118 and 120 secured to and surrounding shaft 112 with the secondary flighting 120 at the spade bit end of the shaft 112 spaced opposite the primary flighting 118 and extending upwardly thereon only a short distance. The leading edge 122 of the primary flighting 118 is 180.degree. opposite from the leading edge 124 of secondary flighting 120. The cutter assemblies 126, however, differ and each include a shaft 138, disc cutters 140, means 144 for supporting the cutter assembly 126 in position below the flightings 118 and 120 as shown. Such support means 144 includes a saddle 146 secured to the underside of its flighting. Each saddle 146 supports a plurality of disc cutters 140 including cutters mounted on the ends and central portions of shaft 138. Suitable bearing means (not shown) are provided for each cutter 140. The cutter assemblies 126 are positioned under the flightings 118 and 120 at a position behind the leading edges 122 and 124. The axis of each of the cutter assemblies 126 is positioned to fall slightly ahead of the axis of the shaft 112. Also, such axis forms an angle of approximately 100.degree. with its respective leading edge. From the foregoing it can be seen that the present invention does provide an improved earth boring auger capable of boring much harder formations than could be penetrated with prior augers and having a relatively high ratio of penetration to torque. Such improved auger provides these advantages by having structure to cut one or more kerfs in the formation before engagement of the formation by the auger flighting. The improved auger of the present invention has the advantages hereinbefore set forth and further may be used in any type of boring whether vertical or horizontal. The improved auger functions in the same improved manner in all positions. Other info: Inventors: Robbins, Leonard J. (Pottsboro, TX, US) Stewart, Lloyd D. (Dennison, TX, US) Application Number: 641041 Filing Date: 1975-12-15 Publication_date: 1976-12-21 Assignee: Reed Tool Company (Houston, TX) Primary Class(es): 175/335 175/351, 175/394 Other Classes: US Patent Ref:
Other Refs: Primary Examiner: Leppink, James A. Assistant Examiner: Favreau, Richard E. Attorney: Mosely; Neal J. |
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